题名

水庫船載重力精進台灣大地起伏模型之可行性研究

并列篇名

A feasibility Study on Enhancing Taiwan geoid model with Shipborne Gravity on Reservoirs

作者

蕭宇伸(Yu-Shen Hsiao);林世峰(Shih-Feng Lin);鄭詠升(Yung-Sheng Cheng)

关键词

大地起伏 ; 重力異常 ; 船測重力 ; Geoid undulation ; Gravity anomaly ; Shipborne gravity

期刊名称

國土測繪與空間資訊

卷期/出版年月

7卷2期(2019 / 07 / 01)

页次

87 - 102

内容语文

繁體中文
中文摘要

本文模擬曾文水庫與石門水庫區域於枯水期及豐水期之重力異常模型,並計算大地起伏模型,以評估台灣實施水庫船載重力任務之必要性。依研究區域與不同水位分成8個案例,並分別以向上延續法模擬各案例在不同水位之重力異常模型,再藉由球諧展開式、剩餘地型模型理論及最小二乘配置法計算其長波長、短波長與殘餘波長之大地起伏,進而整合成各案例之最終大地起伏模型。結果顯示:(1)石門水庫之水位每上升10公尺,重力異常平均減少約0.2~0.3mgal;(2)石門水庫計算之大地起伏於枯水期與豐水期之差異平均約介於0.5~1.0公分,部分區域可達10公分;(3)曾文水庫之水位每上升20公尺,重力異常平均減少約0.1mgal;(4)曾文水庫計算之大地起伏於枯水期與豐水期之差異平均約低於0.5公分;(5)石門水庫實施水庫船載重力測量任務之重要性高於曾文水庫。
英文摘要

We simulate the Taiwan gravity anomaly models over the Tseng-Wen and Shihmen reservoir areas during the high and low water level periods, to assess necessity of shipborne gravity campaigns in Taiwan. Eight cases are tested based on study areas and water levels. The gravity anomaly model of each case is computed with the upward continuation method. We also use the methods of the harmonic expansion, the residual terrain model, and the least squares collocation to compute the long-, short- and residual- geoid undulations, and then integrate into a final geoid model for each case. The results of this paper include: (1) The average gravity anomaly is reduced by 0.2 ~ 0.3mgal while the water level rise by 10 m in the Tseng-Wen reservoir; (2) The difference value between the geoid undulations in the Shihmen reservoir during the high and low water level periods averages about 0.5 ~ 1.0 cm, but in some areas up to 10 cm. (3) If the water level rises by 20 meters in the Tseng- Wen reservoir, the gravity anomaly is reduced by 0.1 mgal on average; (4) The difference value between the geoid undulations in the Tseng-Wen reservoir during the high and low water level periods averages about 0.5 cm; (5) The Shihmen reservoir is higher than the Tseng-Wen reservoir in necessity of shipborne gravity campaigns.
主题分类 人文學 > 地理及區域研究
参考文献
  1. 黃金維,許宏銳,黃啟訓(2013)。新一代台灣大地水準面模式:防災、監測、高程現代化之應用。國土測繪與空間資訊,1(1),57-81。
    連結:
  2. Buttkus, B.(2000).Spectral Analysis and Filter Theory in Applied Geophysics.Berlin:Springer-Verlag.
  3. Forsberg, R.(1984).,Columbus:Department of Geodetic Science and Surveying, The Ohio State University.
  4. Heiskanen, W. A.,Moritz, H.(1967).Physical geodesy.San Francisco:W. H. Fredman and company.
  5. Hodgson, M. E.,Bresnahan, P.(2004).Accuracy of airborne lidar-derived elevation: empirical assessment and error budget.Photogrammetric Engineering & Remote Sensing,70(3),331-339.
  6. Hsiao, Y. S.,Hwang, C.(2010).Topography-assisted downward continuation of airborne gravity: an application for geoid determination in Taiwan.Terrestrial, Atmospheric and Oceanic Sciences (TAO),21(4),627-637.
  7. Hsiao, Y. S.,Hwang, C.,Wu, M. L.,Chang, J. C.(2017).Improved geoid modeling using observed and modeled gravity gradients in Taiwan.Journal of Surveying Engineering,143(2),04016027(1)-04016027(12).
  8. Hsu, S. K.,Liu, C. S.,Shyu, C. T.,Liu, S. Y.,Sibuet, J. C.,Lallemand, S.,Wang, C.,Reed, D.(1998).New gravity and magnetic anomaly maps in the Taiwan-Luzon region and their preliminary interpretation.Terrestrial, Atmospheric and Oceanic Sciences (TAO),9(3),509-532.
  9. Hwang, C.(1997).Analysis of some systematic errors affecting altimeter-derived sea surface gradient with application to geoid determination over Taiwan.Journal of Geodesy,71(2),113-130.
  10. Hwang, C.,Hsiao, Y. S.,Shih, H. C.(2006).Data reduction in scalar airborne gravimetry: theory, computer package and case study in Taiwan.Computers & Geosciences,32(10),1573-1584.
  11. Hwang, C.,Hsu, H. J.,Chang, E. T. Y.,Featherstone, W. E.,Tenzer, R.,Lien, T.,Hsiao, Y. S.,Shih, H. C.,Jai, P. H.(2014).New free-air and Bouguer gravity fields of Taiwan from multiple platforms and sensors.Tectonophysics,611,83-93.
  12. Kuroishi, Y.,Keller, W.(2005).Wavelet approach to improvement of gravity field–geoid modeling for Japan.Journal of Geophysical Research: Solid Earth,110,B03402.
  13. Pavlis, N. K.,Holmes, S. A.,Kenyon, S. C.,Factor, J. K.(2008).An earth gravitational model to degree 2160: EGM2008.EGU General Assembly 2008,Vienna:
  14. Tscherning, C. C.,Rapp, R. H.(1974).,Columbus:Department of Geodetic Science and Surveying, The Ohio State University.
  15. Tsuei, G.C.(1995)。Taiwan,Department of Earth Sciences and Institude of Geophysics, National Central University。
  16. Wang, Y. M.,Saleh, J.,Li, X.,Roman, D. R.(2012).The US Gravimetric Geoid of 2009 (USGG2009): model development and evaluation.Journal of Geodesy,86(3),165-180.
  17. Yen, H. Y.,Yeh, Y. H.,Lin, C. H.,Chen, K. J.,Tsai, Y. B.(1995).Gravity survey of Taiwan.Journal of Physics of the Earth,43(6),685-696.
  18. Yen, H. Y.,Yeh, Y. H.,Lin, C. H.,Yu, G. K.,Tsai, Y. B.(1990).Free-air gravity map of Taiwan and its applications.Terrestrial, Atmospheric and Oceanic Sciences (TAO),1(2),143-155.
  19. 中興測量有限公司(2006).九十三年度一、二等重力測量工作報告書.內政部.
  20. 國立交通大學(2001).一等一級水準點上實施重力測量工作報告書.內政部.
  21. 國立交通大學(2005).空載重力測量工作期末報告.內政部.
  22. 國立交通大學(2014).臺灣本島近岸船載重力異常測量作業總報告.內政部國土測繪中心.
  23. 國立交通大學(2009).西部及東沙海域空載重力測量工作期末報告.內政部.
  24. 國立交通大學(2008)。,內政部。
  25. 國立交通大學(2008).低航高空載重力測量工作案期末報告.內政部.
  26. 國立交通大學(2003).一等二級水準點上實施重力測量工作報告書.內政部.
  27. 許宏銳(2014)。國立交通大學土木工程學系。
  28. 黃金維,郭重言,儲慶美,甯方璽(1998)。台灣重力異常網平差及重力異常資料整合。測量工程,40(3),71-82。
  29. 黃啟訓(2013)。國立交通大學土木工程學系。
print cancel